İLKAN ÖZKAN, PINAR DURU BAYKAL, HALİL ÖZDEMİR

EFFECTS OF INTERMINGLED YARN SURFACE CHARACTERISTICS ON KNITTED FABRIC’S COLOR PARAMETERS

In this research, it is aimed to investigate the effects of intermingled yarns surface structure, caused by difference in number of nips, on the knitted fabrics’ color parameters such as lightness (L*), reflectance (R), absorption coefficient / scattering coefficient (K/S) and color difference (ΔE*). For this aim, filament yarns having different number of nips with 283 dtex linear density and 100 filaments were used for producing the single jersey knitted fabrics. Fabrics were dyed and colors parameters of samples were measured. Results were analyzed by using Realcolor 1.3 software package. As a result of study, it was determined that the R and L* values effected by the changing in nips value and fabric’s construction.

PUNTALI İPLİKLERİN YÜZEY ÖZELLİKLERİNİN, BU İPLİKLERDEN ÖRÜLMÜŞ KUMAŞLARIN RENK PARAMETRELERİ ÜZERİNDEKİ ETKİSİ

Bu çalışmada puntalanmış ipliklerin punta sayılarındaki değişimin, bu ipliklerden üretilen örme kumaşların açıklık-koyuluk (L*), yansıma (R), Absorpsiyon katsayısı / Saçılma katsayısı (K/S) ve renk farklılığı ( ΔE*) değerleri üzerinde etkililerinin araştırılması amaçlanmıştır. Bu amaçla 283 dtex lineer yoğunluğa sahip ve kesitinde 100 filament bulunan, farklı punta sayısına sahip ipliklerden düz örgü kumaşlar üretilmiştir. Üretilen kumaşlar boyanmış ve renk parametreleri ölçülmüştür. Elde edilen sonuçlar Realcolor 1.3 paket programı kullanılarak analiz edilmiştir. Çalışma sonucunda punta sayısı ve kumaş konstrüksiyonundaki değişimin R ve L* değerleri üzerinde etkili olduğu tespit edilmiştir.

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Acar, M., Dudeney, W. L., Jones, J., Jackson, M. R et al., (2005), “Laser fusion to impart cohesion to textured filament yarns”, Textile Research Journal, 34, 181–193.

Demir, A., & Behery, M. H., (1997), “Synthetic filament yarn texturing technology”, Upper Saddle River, NJ: Prentice hall.

Akgün, M., Alpay, H. R. and Becerir, B., (2012a), “Review of the relations between fabric constructional parameters and fabric reflectance”, Journal of the Faculty of Engineering and Architecture of Uludag University, 17:1, 93-106.

Duran, K., (2008), Textile color measurement and recipe preparation. Ege University Textile and Apparel Research and Application Center, Second Edition, Bornova / Izmir.

Needles H.L., (1986), Textile Fibers, Dyes, Finishes and Processes, Noyes Publications, New Jersey, USA.

Datacolor., (2009), “Colorimetric fundamentals CIELAB”, 1-2, USA

X-rite., (2007), “A guide to understanding color communication”, L10-001 (03/07) Printed in USA.

Gabrijelčič, H., (2007), Colour and optical phenomena on fabric. Tekstilec, 50(4-6), 93-132.

Newton, A., (1995), The comparison of woven fabrics by reference to their tightness, The Journal of the Textile Institute, 86(2), 232– 239.

Seyam, A. and El-Shiekh, A., (1994), Mechanic of woven fabric, part IV: critical review of fabric degree of tightness and its application, Textile Research Journal, 64(11), 653–662.

Becerir, B., (2003), “An experimental investigation on fabric covers factor fabric reflectance and fibre fineness”, Colourage, Tex India Fair, 53-56.

Rubin, B., Kobsa, H. and Shearer, S. M., (1994), “Modelling the dependence of fabric reflectance on denier per filament”, Textile Research Journal, 64(11), 685-689.

Çay, A., Atav, R. and Duran, K., (2007), “Effects of warp-weft density variation and fabric porosity of the cotton fabrics on their colour in reactive dyeing”, Fibres & Textiles in Eastern Europe, 1 (60), 91-94.

Gabrijelčič, H. and dimitrovski, K., (2004), “Influence of yarn countand warp and weft thread density on colour values of woven surface”, Fibres & Textiles in Eastern Europe, 1(45), 32–39.

Kim, J. J., Shin, K. I., Ryu, H. S. et al., (2004), “Luster properties of Polyester filament yarn woven fabrics”, Textile Research Journal, 74(1), 72-77.

Li, S., Shamey, R., and Xu, C., (2009), “Prediction of depth of shade of a dyed polyester fabric based on fibre fineness and fabric structure”, Coloration Technology, 125(5), 296-303.

Shams-Nateri, A., Amirshahi, S.H. and Latifi M., (2006), “Prediction of yarn cross-sectional color from longitudinal color by neural network”. Research Journal of Textile and Apparel, 10(2), 25-35.

Akgün, M., Becerir, B., and Alpay, H. R., (2012b), The effect of fabric constructional parameters on percentage reflectance and surface roughness of polyester fabrics. Textile Research Journal, 82(7), 700-707.

Senthilkumar, M., Selvakumar N., and Shamey R., (2011), “The effect of humidity, fabric surface geometry and dye type on the colour of cotton fabrics dyed with a select range of anionic dyes”, Dyes and Pigments, 90, 225-232.

Becerir, B., and Ömeroğlu,S., (2007), “Comparison of color values of plain cotton fabrics knitted from ring- and compact- spun yarns”, AATCC Review, 7 (7), 41-46.

Micheal, M. N., and Dyab, W. A. (2001). Effect of spinning method and knitting type on dyeability and fading kinetics. AATCC Review, March, 1(3), 53-56.

Kretzschmar, S. D., Özgüney, A. T., Özçelik, G. et al., (2007), “The comparison of cotton knitted fabric properties made of compact and conventional ring yarns before and after the dyeing process”, Textile Research Journal, 77 (4), 233-241.

Özdil, N., Özdoğan, E., Demirel, A., et al., (2005), “A comparative study of the characteristics of compact yarn-based knitted fabrics”, Fibres & Textiles in Eastern Europe, (2 (50), 39-43.

Çeken, F., and Göktepe, F., (2005), “Comparison of the properties of knitted fabrics produced by conventional and compact ring-spun yarns”, Fibres & Textiles inEastern Europe, 1(49), 47-50.

Özdemir, H., and Oğulata, R. T., (2011), “Comparison of the properties of a cotton package made of vortex (MVS) and Open-End rotor yarns” Fibres & Textiles in Eastern Europe, 1 (84), 37-42.

Luo, L., Tsang, K. M., Shen, H. L., et al., (2014), “An investigation of how the texture surface of a fabric influences its instrumental color”, Color Research & Application.

Gorji Kandi, S., Amani Tehran, M., and Rahmati, M., 2008, “Colour dependency of textile samples on the surface texture”, Coloration Technology, 124(6), 348-354.

Xin, J. H., Shen, H. L., and Lam, C. C., 2005, “Investigation of texture effect on visual colour difference evaluation”, Color Research and Application, 30(5), 341-347.

Özkan, İ., & Baykal, P. D., (2014), “The Statistical Evaluation of The Interaction Between The Number of Nips And Thickness of Fabric That Knitted Using Polyester Filaments”, Electronic Journal of Textile Technologies, 8(1), 29-38.